DE2649056A1 - MOTOR PROTECTION SWITCH - Google Patents

Description

PATBHTAirWAIT DIPL. ING. K. HOIiZEE FHIIiIFFtNB-WBITSEB-STBASSS 14

8900 AUGSBUBG

51Ö4M TELEX 533 208 ρώοΓϊ

Iv. 826

Augsbury, October 25th

Westinghouse Electric Corporation, t.estinghouse Buildin _o , Gateway Center, Pittsburgh, Pennsylvania 15222,

V.St.A.

Motor protection holder

The invention relates to a motor protection switch with an insulating housing and on the network side arranged thereon and motor-side connections, further with a switching contact arrangement arranged between these connections, the switching contacts fixed per switch pole and thus

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cooperating, movable by means of a switching arm Has switch contacts, and with means for switching arm actuation for the purpose of opening or closing the switch contacts.

In particular, the invention relates to a motor protection switch for operating a motor and for protecting it in the event of all possible fault current states ₀

US Pat. No. 3,638,157 discloses a combination motor starter is known to provide protection within a wide range of overcurrent, fault current and short circuit conditions offers by using a thermal overload relay in combination with a contactor for switching off in the event of smaller overloads, an automatic switch with adjustable tripping means for switching off in the event of weak to strong fault currents, and Current-limiting fuses for limiting and interrupting short-circuit currents are used

Other conventional combination motor starters without adjustability of the triggering conditions, a No automatic switch and instead only a manual switch is used, by means of which the motor circuit arbitrarily 'can be opened and closed.

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All of the known combination motor starters of the The above-mentioned type of protection devices used represent separate units in a common housing housed and wired together so that they in combination with each other the desired overall protection function take over. Such switching devices composed of individual units not only require a comprehensive one Wiring of the individual units when installing in the common housing, but are also relatively large and need In addition, a fairly frequent maintenance, since the heating conductors of the thermal overload relays can burn out and because current-limiting fuses have to be replaced after each tripping.

The invention is based on the object of a motor protection switch of the type set out at the beginning, which does not have the disadvantages just explained »

Such a motor protection switch is in the sense of solving this problem according to the invention characterized in that a manually operated disconnector between the network-side Connections and the switching contact arrangement in the insulating housing is arranged and that said means for switching arm actuation an electromagnetic actuating device which

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can be switched into a trigger state in which it a shift arm movement in the sense of a contact opening causes, further a measuring device which senses the current flowing through the motor protection switch and which one of the output signal proportional to the measured current intensity, and a control device responsive to this output signal, which, if the measured current intensity exceeds a first predetermined value, the electromagnetic Actuating device switches to the release state, and have a magnetic release device, which is arranged with respect to each switching arm in such a way magnetizable Component contains that in the case of a fault current, the strength of which is one or above the first predetermined value exceeds the second predetermined value, magnetic positive induced a switching arm actuating force which brings about a contact opening movement generated.

The measuring device of the motor protection switch preferably has a current transformer in each switch pole and the control device receiving the output signal of the measuring device is a solid-state logic module with a Solid state overload relay and trip holding, for example that in GB-PS 1 447 313 and GB-PS 1 426 855 described type »This control logic makes the applicability of the motor protection switch according to the invention very flexible,

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especially when used in automatic and computer-controlled Systems, with the motor protection switch anyway takes up very little space.

The electromagnetic actuator may be an electromagnet or other suitable electromechanical Be a device that can be switched between two operating states and the movement of one in the excited state Actuator from a retracted position in an advanced position causes and vice versa ,, the magnetic Tripping device is preferably designed in the manner of a so-called slot motor and serves as short-circuit protection with effective current limitation, but, in contrast to current-limiting fuses, does not need Replaced after each release and usually lasts as long as the motor protection switch itself,

The motor protection switch according to the invention thus represents an integrated and compact switching device and fulfills all protective functions required to protect a motor in the range from weak overloads to strong ones Short-circuit currents are necessary and also contains a circuit breaker that separates the motor protection switch vom Wetz enables it, so its internal components

can be safely checked, serviced or replaced without the motor protection switch being completely switched off Wetz needs to be separated.

Furthermore, the motor protection switch can by using manually operated on / off switches, for example from Push buttons that are connected to the excitation circuit of the electromagnetic actuator for normal switching on or off of a motor, regardless of its protective function.

In order to make the built-in motor protection switch according to the invention even more adaptable to be insulating housing is preferably divided, each housing section, certain of the switch components formed by the network-side and the motor-side terminals, the switching contact arrangement, the means for Schaltarmbetätigung and the disconnecting switch receives such a manner that it with the relevant components The various switch modules formed in this way are each assembled separately and then put together to form an arrangement which essentially requires no further wiring and from which any module can be used for checking purposes or the like simply by loosening a few

Blocks of screws holding together can be removed without wiring and the like need to be resolved.

Where, by removing a module, the disconnector contacts connected to the network or live Parts of an adjacent building block are exposed, a closure is preferably provided, which is when Removal of the relevant module into one of the relevant isolating switch contacts or current-carrying parts covering position moved »

In a preferred embodiment of the invention, in which some of the circuit breaker contacts in one Housing section and the other circuit breaker contacts in an adjacent housing section are located, is the Circuit breaker designed so that it locks these two housing sections together in the closed state in such a way that that they are inseparable from one another

Two preferred embodiments of the invention are described below with reference to the accompanying drawings, for example described in which show:

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Fig. 1 is a block diagram of a motor protection

switch according to the invention,

Fig. 2 is a vertical section through

the motor protection switch,

Fig. 3 is a cross section along the

Level III-III in Fig. 2,

Fig. 4 is a cross section along the

Level IV-IV in Fig. 2,

Fig. 5 is a cross section along the

Line V-V in Fig. 2,

Figure 6 is an end view of the engine guard

switch,

Fig. 7 is a circuit diagram of a control and

Tripping circuit to excite the electromagnet of the motor protection switch,

8 is a perspective view of FIG

different, pulled apart

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41 *

the illustrated modules of the motor protection switch,

Fig. 9 is a section through another

Embodiment of a motor protection switch according to the invention,

Fig, IO a cross section along the

Line X-X in Fig. 9,

FIG. 11 is a top view of the FIG

Motor protection switch shown, and

Figo 12 shows a detail of the ge in Fig, 9

showed motor protection switch.

. The to 8 shown integrated in the Figure 1 motor protection switch which is generally indicated at 16, has, according to the schematic representation in FIG _o 1 the following main functional groups: the arc chambers 50, which the switch contacts and the radio extinguishing equipment of the motor protection switch harboring a circuit breaker 20 for Disconnect the motor protection switch from the mains for safety reasons if its safety contacts or other internal functional

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parts are checked, serviced or replaced, a current-limiting switch arm release device 60 for quick The safety contacts open to the current in the event of a severe error or To limit short-circuit currents, an electromagnetic actuator 30 for normal closing and opening the safety contacts and for contact separation in the event of over or Fault currents, and solid state control logic 40 which the electromagnetic actuator at continuous Overloads below a certain level with a time delay and with higher overloads and fault currents immediately starts operating above this level.

The integrated motor protection switch 16 has a housing 17 made of insulating material, for example polyester glass, which is subdivided in such a way that individual building blocks are formed that form the functional units and are releasably held together, as will be explained in more detail below is explained. The invention is applicable to both single-phase and multi-phase motor protection switches In the illustrated embodiment, the motor protection switch three phases or three switch poles, each of which has a line-side connection 21 and a motor-side Connection 43 and disconnector contacts 22 and 23 in between and a switching contact arrangement with switching contact pairs 51, and 53, 54 and a holding arm 61 for opening and closing

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the switching contacts and one designed as a current transformer 41 Has current sensor.,

In detail, the circuit breaker 20 has fixed, spring-clip-like contacts 22, movable contact tongues and an operating mechanism with a handle 24 and a shaft 27 carrying this and the contact tongues 23, so that the contact tongues by appropriate movement of the handle 24 into or out of contact between the spring-clamp type Contacts 22 can be brought. The contact tongue 23 of each switch pole is connected via a flexible conductor having an L-shaped conductor 26, which the switch contact 52 of the associated with the switch pole relevant switching contact arrangement carries ₀ This switching contact arrangement includes also a shaped L-on a further printed circuit 47 arranged second fixed switching contact as well as a movable switch arm 61, the two movable switch contacts 51 and 54 supports which can be brought by movement of the shift arm 61 in or out of contact with the two fixed Sehaltkontakten 52 and 53 _0. the the fixed switch contact 53 carrying conductor 47 is connected via a further conductor 42 connected to one terminal of the primary side of the associated current transformer 41, the other terminal of which is connected to the motor-side terminal 43 _o The switching contact pairs 51 »52 and 53, 54 are together with them

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associated stacks 55 arranged from radio extinguishing plates in the housing portion formed in a lower arc chambers which are closed to the outside by perforated plates 56 made of glass melamine or the like, as apparent from FIGS. 2 and 6 ₀

The contact opening movement of the switching arms is brought about by means of the actuating device 30 either arbitrarily or automatically when overcurrents exceeding a first level occur and can also overcurrent when a second, higher level occurs, which are in the range of strong fault currents or in the short-circuit current range, by the current-limiting triggering device 60 to be brought about. The current-limiting release device 60 is of a type which is commonly referred to as a magnetic motor or slot motor and operates in a manner described in more detail, for example, in GB-PS 1,412,705. In principle, the magnet or slot motor 60 has a magnetizable component or yoke 62 (see also FIG. 4), in which a slot 68 is formed for each holding arm 61, which is at one end (according to FIG. 2 at its upper end). is open and the respective associated switching arm 61 movably receives _β As a result, a fault or short-circuit current flowing through the switching arm generates a in the magnetizable component

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sufficiently large magnetic flux to move onto this switch arm an actuating force which brings about such a rapid contact opening movement that the error or Short-circuit current is limited to a strength which the system connected to the motor protection switch can withstand undamaged until the complete interruption the short-circuit current has been brought about. The response characteristic of the slot motor 60 is through the width of each slot 68 and the cross section of the movable therein Switching arm certain At the bottom of the slot, a buffer 66 made of nylon or similar material is provided to to dampen the impact of the quickly opened switching arm. When the switching arm moved in this way is completely open Position reached, it is automatically in by means of a suitable, not shown locking device locked in this open position. If the locking element, which is on a locking holder designated 143 in FIG can be stored, is subsequently actuated in the sense of a release of the switching arm 61, so is the switching arm, with a guide pin slidably displaceable in a recess 64 of the magnetizable component 63 is connected and is movable together with this, by means of a between the guide pin 63 and the bottom of the switch housing 17 arranged compression spring

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brought back into its closed position shown in FIG.

The electromagnetic actuator 30 serves for starting and stopping the motor and for switching off in the event of overloads below that which triggers the slot motor 60 Overload level. The illustrated electromagnetic actuating device 30 has an electromagnet 31 with an anchor 32, which acted on a nylon button or the like at the end of each guide pin 63 carrying a switching arm. Solenoid 31 in In one of its operating states (in the illustrated embodiment, in the excited state), it pulls the armature 32 and thereby keeps it from the nylon buttons I30 of the Guide pin 63 removed when switching the electromagnet 31 in its other operating state (when shown Embodiment the de-excitation state) is the anchor released and with the help of springs 34 (Figo 3) pressed against the nylon buttons I30 of the guide pins 63, so that the switching arms 61 are moved into contact opening positions in which the distance between the switching contacts the switching contact pairs 51, 52 and 53, 54 preferably is smaller than the resulting distance when the switching arms open due to the action of the slot motor 60 will". The ratio of the distances can for example 6.5 mm to 25 mm «

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When the electromagnet 31 subsequently returned to its original state (in the illustrated embodiment is switched back to the excitation state, so will the armature 32 is tightened again and leaves the switching arms under the action of the springs 65 in their closed positions to return. The total force of the springs 65 is self-evident less than the contact opening force exerted on the guide pin 63 when the armature is released. How out the above description and also from Fig, 3 can be seen, the electromagnet 31 is the switching arms assigned to all switch poles and actuated them simultaneously.

A suitable one in connection with the electromagnet 31 Control circuit is shown in FIG. It includes a normally open "Starf" pushbutton switch 80, a normally closed "stop" push button switch and a normally closed control switch 83 » which are all connected in series with the coil of the electromagnet 31. The manually operated push button switches and 82 can either be at the installation site of the motor protection switch or be arranged on a remote control panel.

When the "start" button 80 is depressed for a moment, the solenoid 31 is energized and

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attracts the armature 32, with a self-holding contact 8l being closed at the same time. De-energization of the electromagnet 31 and consequently a contact opening movement of the switching arms 61 takes place when either the manually operated "stop" pushbutton 82 is pressed or the control switch 83 is opened the control logic 40 is controlled, which contains a Pestkörper-trip circuit, which the control switch 83 when a permanent overload occurs in a lower range between the above-mentioned first and second current value with delay and when a severe overload or a fault current occurs in an upper range between the two current values instantaneously ₀ Pur opens this purpose, suitable Auslösescha.ltungen are described for example in GB-PS 1,447,313 and GB-PS 1,426,855.

As in the Pig. 5 and 6 are the pest control switch and possibly also the control switch 83, if it is implemented using the plague body technology, contained in a plague body building block 45 which, for example by means of a suitable plug connection near the current transformers 41, which are connected by the various switch poles sense flowing currents and generate an output signal proportional to the measured currents, im

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Switch housing is housed. The output signal of the Current transformer 41 becomes the solid-state trip circuit via a rectifier bridge located on a circuit board fed. The circuit board 44 is shown in Figure, in an upper portion of the switch housing below a cover plate 94 (FIGS. 3 and 8) and above the current transformer 41 arranged, the latter being arranged in recesses which are also formed in the upper housing section The reference numeral 70 in Fig. 5 denotes in the side wall parts of the upper housing sections formed boxes or holder to accommodate auxiliary switches or auxiliary contact sets, which are not shown.

The solid-state trip circuit contained in the control logic 40 can have a rated tripping value such that the circuit responds to overloads and fault currents of up to six times the rated motor current at full load or, for example, up to 1200 A, above this range, for example at currents of over 1200 A to over 100,000 A the slot motor 60 is effective _o In order to make the tripping current of the solid-state tripping circuit variable, this can be an exchangeable, not shown adjustment element such as a resistor or potentiometer module with a plug connection of the one described in US Pat. No. 3,826,951 Exhibit type,

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this resistance or potentiometer module also according to US Pat. No. 3,826,951 or the aforementioned GB Pat. No. 1,426 can be used in the trip circuit so that if desired, easily against a similar module other trigger value is exchangeable.

After each tripping process that leads to a contact opening movement of the switching arms 61, these must be in their Closed positions are reset before switching on again of the engine or engines in the relevant engine circuit is possible. To reset the switch arms To be able to, it is first necessary to close the holder again and retract the armature 32 into his To bring back position.

The motor protection switch is activated by means of Screws, not shown, which are passed through screw holes (Fig. 4) in the bottom flanges of the switch housing installed in a control panel or in a control cabinet. If a check, maintenance or an exchange of certain parts of the motor protection switch should be desired or necessary, this makes it easier modular design of the motor protection switch this work essential, whereby the motor protection switch can even remain installed.

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As can be seen from FIGS. 2 and 8, the motor protection switch has a base module which has a lower housing section with the slot motor 60, the securing arm assemblies consisting of en visual arms 61, the guide pins 63 and the springs 65, the spark extinguishing plate stacks 55 and the switching arm locking device ( Locking holder 143 and locking elements, not shown). The motor protection switch also has a connection module which comprises an end section or a connection plate of the housing with the network-side connections and the fixed, spring-clamp-like contacts 22 of the disconnector. Finally, the motor protection switch has an upper block, the 23 _a 24 and 27 of the circuit breaker, further, the fixed switch contacts 52, 53 NIIT an upper housing section and the movable parts of their associated conductors 25 _S 26, 42 and 47 * the armature 32 and the Springs 34, furthermore the current transformer 4l, the circuit board 44 carrying the rectifier bridge and a cover plate 94 with the electromagnet 31 fastened to the underside thereof.

As best shown in Figures 2, 3, and 8, the top building block, which is the main building block, is on placed the base module and releasably fastened to it by means of holders 90 and 91, the holders in each case

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are designed as approximately Z-shaped brackets, the upper ends of which each grip over an upper edge section of the upper housing section, and the lower ends of which are fastened, for example by means of screws, to the respective ßodenflanscn of the lower housing section. The mains connection module is placed on one end of the base module and fastened to it by means of essentially L-shaped holders (see especially Fig. 8) Parts and are attached with their short legs, for example by means of screws, to the respectively adjacent bottom flange of the housing section of the base module ₀ The cover plate 9 ^ with the attached electromagnet is detachably attached to the upper module by means of suitable fasteners, for example screws 92 and 93.

From the above description and from the drawings it can be seen that the various building blocks are so constructed and are assembled so that by simply stacking these components, the fully functional motor protection switch is produced without an additional

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Wiring or making further, over those Connections outgoing connections are to be made, which initially when installing the solid-state control module 45 and when connecting bzx * r. Plugging together the outputs of the The rectifier bridge located on the circuit board 44 can be produced with the inputs of the control module 45. Around To gain access to the internal parts of the motor protection switch, it is only necessary to first remove the circuit breaker to open and thereby the motor protection switch from the mains separate and then simply loosen the holder, which after removing the lifting of the cover plate and / or the or the enable the desired building blocks. In this context it should be noted that when the upper module is removed from the base module, a lock 28 (FIG. 2) is attached to the power supply module is released, which is under the action of a spring on the otherwise exposed spring terminal-type disconnector contacts 22 moves and forms a contact protection.

A modified motor protection switch is shown in FIGS. 9 to 12, in which the btroinpfad in each Switch pole from a mains-side connection lül via a disconnector described below, a conductor 112, a switching contact pair 113, 114, a movable switching arm 115, another pair of switching contacts 116, 117, a connecting terminal 118 and the primary side of a current transformer 119

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a motor-side connection 120 runs. The circuit breaker shown in Figure 12 in detail _o serves as the. Disconnectors of the first described embodiment for separating the Motorschutzsehalters from the mains, and has each individual breaker two substantially fixed contacts and 108 which are substantially parallel at a distance next to one another extending at two conductors are arranged 109 and 110 _a and a movable contact tongue 104 which at one flexible connecting conductor 103 is arranged. This connecting conductor 103 is in turn connected via a conductor 102 to the respectively assigned network-side connection 101. The contact tongue 104 has a contact tip 105 which can be moved into and out of contact between the two essentially stationary contacts 107 and 108. The contact tongues 104 of all switch poles are fastened, for example by means of rivets, to an insulating slider 203, which is in operative connection with an actuating lever 106 on a rotatable shaft and can be pivoted in one direction (counterclockwise according to FIG. 9) by means of a handle, not shown, that the slider 203 is moved in the sense of pushing in the contact tips 105 of all contact tongues 104 between the contact pairs 107, 108, and is pivotable in the opposite direction, so that the slider is moved in the sense of pulling out the contact tips 105 between the contact pairs 107, 108 «,

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The current flowing through this when the isolating switch is closed is divided in each switch pole into two partial currents flowing through one of the two approximately parallel conductors IO9 and 110, which have the same flow directions and consequently generate magnetic fields which pull the two conductors 109 and 110 towards each other. Thereby-acres the contacts 107, I08 and the contact tip 105 generates an increasing with increasing current contact pressure, so that the circuit breaker can handle despite small and compact design relatively high currents without risk of contact and excessive contact erosion _o Moreover, the two conductors may I09 and 110 be spring-loaded towards each other.

Another advantage of the circuit breaker described here is the mechanical interlock, which is when the disconnector is closed. As can be seen from FIGS. 9 and 12, the movable disconnector contact arrangement, which the slider 203 with the attached contact tongues 104 and the associated actuation mechanism comprises, arranged in a removable end portion of the motor protection switch housing, while the Conductor pairs 109, HO with the stationary ones located on them Contacts 107, 108 at 111 on the respectively associated

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Phase conductor 112 are attached, which is housed in another housing section. The engagement of the movable Contact tongues 104 between the associated fixed contacts 107, 108 thus lock the two Blocks together in such a way that a separation of these blocks is prevented until the movable contact tongues between the fixed contacts 107, 108 have been pulled out and the motor protection switch consequently from the mains is separated.

Referring to Fig. 9, the switch arm 115 is each switch pole for example by means of a screw-in button 122 with a guide pin 121 similar to the guide pin 63 of FIG first embodiment connected to which a compression spring 123 for generating a contact pressure between the switching contact pairs 113, 114 and 116, 117 in the closed state works. The guide pin 121 has a shaft 124 connected, which carries an anchor 125. The armature 125 acts with the pole pieces of a permanent magnet arrangement 126, 127 together, which is used to magnetically lock the switching arm in the closed position until · the contacts when it occurs an abnormal current condition can be opened · Another compression spring 128 acting on the armature 125 holds the switching arm after it has moved into its open position

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has been in this position. Each switch arm 115 is moveable in a slot formed in a magnet or slot motor 130 similar to the slot motor described in connection with the first embodiment, and each slot of the slot motor is at its bottom with a buffer 129 made of nylon or similar material to cushion the impact the switching arms at the contact hole provided in the arc chambers angordnete stack 131 and 132 of radio extinguishing plates 139, 140 (Fig. 10) serve to clear the between the switching contact pairs 113 _9114, and 116, 117 drawn at the contact separation the arc _e

The current transformers 119, which are arranged on a common angle 133, are used to sense the through the three switch poles flowing current and lead the control logic, which contains a solid-state trigger circuit, in the above in Connection with the first embodiment explained way an output signal when the measured current intensity exceeds a certain value. In the present exemplary embodiment, the solid-state control module 14l is as shown in FIG. 10 is apparent, but arranged in a housing compartment which is arranged on the side of the motor protection switch housing and is normally closed by a cover (removed in Fig. 10, but visible in Fig. 11) ”

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The one controlled by the pest body trigger circuit electromagnetic actuator has a Electromagnet with a layered core 137 and a winding I38 and a rocker arm mechanism that consists of one over the switch arm buttons 122 of all switch poles extending transverse rod 136 and an armature 135 cooperating with the electromagnet. As long as the "winding 138 is energized, the armature 135 is attracted towards the core 137 and the crossbar I36 is therefore disengaged from the shift arm buttons 122 kept away. De-energizing winding I38 causes armature 135 * to be released so that the rocker arm mechanism can pivot around an axis 13 ^ under the action of springs (not shown) (in Fig. 9 counterclockwise) so that the crossbar is moved against the switch arm buttons 122 and urges all switch arms II5 into their open positions. As well as In the first embodiment, the switching contacts 113, 114 and II6, 117 are further separated from one another, the Distance is about 25 mm when the contact opening through the Slot motor I30 is brought about than with a contact opening by the electromagnetic actuation device, in which only a contact distance of, for example, 6.5 mm is brought about.

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The hot circuit breaker shown in FIGS. 9 to 12 is again implemented in a modular design and vieist a main building block, the base and the main section of the Switch housing (with the exception of the housing end walls and a cover), the magnetizable components of the slot motor 130, the movable shift arm assemblies 114, 116, 121-125 and 12 8, the associated magnetic locking devices 126, 127, the spark suppressor plates 131 »132 and the electromagnet 137, 138, further comprises a power supply module with a housing end wall and the network-side connections 101 as well as the moving parts I03 to 106 and 203 of the disconnector, and also a load connection module with the other housing end wall and the motor-side connections 120, the current transformers and the rocker arm mechanism with the anchor 135 and the attached crossbar 136, and finally an upper building block, the a housing cover with the fixed safety contacts 113 » 117 and the fixed parts 107 to 112 of the circuit breaker comprises »These modules are simply put together and can be removed individually.

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Claims (1)

Claims f Io motor protection switch with an insulating housing and connected mains-side and motor-side connections, further with a switching contact arrangement arranged between these connections, which has fixed switching contacts per switch pole and interacting switching contacts movable by means of a switching arm, and with means for switching arm actuation for the purpose of opening or closing of the switch contacts, characterized in that a manually operated disconnector (20) is arranged between the mains-side connections (21; 101) and the switch contact arrangement (51 to 54; 113 to 117) in the insulating housing (17) and that the means for Switching arm actuation an electromagnetic actuating device (30) which can be switched into a release state in which it causes a switching arm movement in the sense of a contact opening, furthermore a measuring device (41; 119) which senses the current flowing through the motor protection switch and which is one of the measured currents a power proportional output signal is generated, furthermore a control device (44, 45) which is responsive to this output signal; l4l), which, if the measured current intensity exceeds a first predetermined value, switches the electromagnetic actuator into the trigger state, and a - 28 - 709819/0282 2649058 4 magnetic release device (6C, 130) having a with respect to each Sehaltarm (61 j 115) so arranged magnetisable component contains that the the strength of which exceeds a second predetermined value located above the first predetermined value, induced magnetic flux one, a riontakt opening movement induction arm actuation force generated. 2. Motor protection switch according to claim I ₉ aadurcn characterized in that each 3chaltarm (61, 115) ciurch an οcnlitζ formed in the magnetizable component nindurcnlauf and is movable in this. 3 ο i'Iotorschutzscnalter na cn claim 1 or 2, dadurcu characterized in that the fixed and the movable switching contacts (51 to 5 ^; 113 to 117) in one by the magnetic release device (6Oj 130) caused Contact separation are moved further apart than with one by the electromagnetic actuator (30, 135) caused contact separation. 4o motor protection switch according to one of claims 1 to 3, characterized in that the electromagnetic actuation - 29 - 700819/0 * 82 device (30) "is an electromagnet (31) and that the called trigger state of excitation state of the electromagnet is. 5. Motor protection switch according to one of claims 1 to 4, characterized in that the insulating housing (17) is divided into several sections which are detachably connected to one another and each with switch components arranged thereon or therein form a unitary module _o 6ο Motor protection switch according to claim 5> characterized in that a first module contains the mains-side connections (21) and the mains-side disconnector contacts (22), that a second module adjoining the first module contains a part (52, 53) of the switching contact arrangement and the motor-side disconnector contacts (23) that further contains a third module, which is adjacent to the first and second module, the remaining part (51, 5 ¹ O of the switching contact arrangement, and that the first module contains a movable one in the first module Disconnector contacts covering position has biased closure (28) which, as long as the second module is in place, is held in an inoperative position and when the second module is removed - 30 - 709819/0282 is released by the first and third block _o 7. Motor protection switch according to claim 5 or 6, characterized characterized in that the circuit breaker contacts per switch pole have two essentially fixed, in one housing section have retained contacts (22) and a contact tongue (23) retained in another housing section, which the latter can be brought into and out of contact between the two essentially stationary contacts, and that the Arrangement is made so that the contact tongue in contact with the two fixed contacts the two, the Isolating switch contacts containing housing sections so locked together so that they cannot be separated from each other, 8. Motor protection switch according to claim 7, characterized in that said, substantially fixed Isolating switch contacts (107, 108) to one another essentially parallel conductors (109, 110) running next to one another are arranged in such a way that a through these conductors Electricity generates magnetic fields, which these conductors and the contacts arranged on them increase with the intensity of the current Pull strength towards each other. - 31 - 7Ö9S19 / 0282 9. Motor protection switch according to one of claims 1 to 8, characterized in that the measuring device (41, il9) has a current transformer per switch pole » 10. Motor protection switch according to one of claims 1 to 9, characterized in that the control device has control logic (45) with a solid-state circuit from which contains the electromagnetic actuator (30) if the measured current is in a lower range between the first and the second predetermined value, with a delay and, if the measured current intensity is in an upper range lies between the first and the second predetermined value, instantly switches to said trigger state. 11. Motor protection switch according to one of claims 1 to 10, characterized in that the electromagnetic actuator (30) by means of a manually operated switch (80, 82) independently of the control device in the aforementioned Trigger state is switchable. - 32 - 709819/0282